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Abstract

Artificial intelligence (AI)-enabled digital technologies have the potential to transform agriculture by supporting decision-making and automating operations. However, their limited adoptions and scholars’ atheoretical explorations constrain our understanding. Drawing on the technology-organization-environment (TOE) framework, we investigate the challenges hindering the AI-enabled technology's adoption in farms using a multi-method approach, including semi-structured interviews, thematic analysis, total interpretive structural modeling, and fuzzy cross-impact matrix multiplication applied to classification analysis. Our finding shows novelty in several aspects. First, we identify 13 challenges, some of which are underexplored, such as the absence of effective intermediaries in promoting agricultural technology. Second, we developed a hierarchical and clustering framework to reveal their interrelationships, classifications, and identify the key challenges. Third, we reorganize the TOE framework into a P-TOE model, where “P” represents people's experience, knowledge, and skills. Finally, we offer practical recommendations, including the creation of non-profit technology extension hubs and hands-on training programs to promote inclusive technology adoption.

Publication Date

2026-05-04

Publication Title

International Transactions in Operational Research

ISSN

0969-6016

Acceptance Date

2026-04-26

Deposit Date

2026-06-17

Funding

The author(s) received no financial support for the research, authorship, and/or publication of this article.

Keywords

artificial intelligence, decision-making, digital technologies, farming, MICMAC analysis, total interpretive structural modeling

Creative Commons License

Creative Commons Attribution 4.0 International License
This work is licensed under a Creative Commons Attribution 4.0 International License.

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